Integrating Gyroscopes into Ubiquitous Tracking Environments

Author

Pustka, Daniel ; Huber, Manuel ; Klinker, Gudrun

Author_Institution

Tech. Univ. Munchen, Munich

fYear

2008

fDate

8-12 March 2008

Firstpage

283

Lastpage

284

Abstract

It is widely recognized that inertial sensors, in particular gyroscopes, can improve the latency and accuracy of orientation tracking by fusing the inertial measurements with data from other sensors. In our previous work, we introduced the concepts of spatial relationship graphs and spatial relationship patterns to formally model multi-sensor tracking setups and derive valid applications of well-known algorithms in order to infer new spatial relationships for tracking and calibration. In this work, we extend our approach by providing additional spatial relationship patterns that transform incremental rotations and add gyroscope alignment and fusion. The usefulness of the resulting tracking configurations is evaluated in two different scenarios with both inside-out and outside-in tracking.

Keywords

graph theory; gyroscopes; inertial systems; sensors; tracking; ubiquitous computing; gyroscopes; inertial sensors; multisensor tracking; orientation tracking; spatial relationship graphs; spatial relationship patterns; ubiquitous tracking; Augmented reality; Calibration; Computer displays; Delay; Gyroscopes; Multimedia systems; Particle measurements; Robot kinematics; Sensor fusion; Sensor systems and applications; Augmented Reality; Calibration; Gyroscopes; H.5.1 [Information Interfaces and Presentation]: Multimedia Information SystemsÂ¿Artificial, augmented, and virtual realities; I.3.1 [Computer Graphics]: Hardware ArchitectureÂ¿Input devices; Inertial Sensors; Sensor Fusion; Tracking;

fLanguage

English

Publisher

ieee

Conference_Titel

Virtual Reality Conference, 2008. VR '08. IEEE

Conference_Location

Reno, NE

Print_ISBN

978-1-4244-1971-5

Electronic_ISBN

978-1-4244-1972-2

Type

conf

DOI

10.1109/VR.2008.4480802

Filename

4480802